Beverage brewer



May 1, 1951 H. w. PETERS ETAL BEVERAGE BREWER 9 Sheets-Sheet 1 Filed Feb. 27, 1947 W W W & 1927 567 2 754 mad J5 y 1951 H. w. PETERS ETAL 2,551,219

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BEVERAGE BREWER Filed Feb. 27, 1947 9 Shee'ts-Sheet 6 May 1, 1951 H. w. PETERS ETAL BEVERAGE BREWER 9 Sheets-Sheet 7 Filed Feb. 27, 1947 CmflfasL/l Crvjj@ 7120724222 6 w y 1951 H. PETERS ETAL 2,551,219

BEVERAGE BREWER Filed Feb. 27, 1947 9' Sheets-Sheet 8 m 2? w a Patented May 1, 1951 BEVERAGE BREWER Herbert W. Peters, Milwaukee, Wis., and Charles N. Crossley, Riverside, and Raymond J. Gagan, Gal; Park, Ill., assignors to Cory Corporation, Chicago, 111., a corporation of Delaware Application February 27, 1947, Serial No. 731,324

12 Claims.

This invention relates to beverage brewers used in restaurants and other commercial establishments for preparing large or repeated quantities of beverage such as coffee, and particularly to commercial brewers of the type wherein the beverage is prepared by infusion at a point remote from a heat source.

It is an object of the present invention to proride in a commercial automatic brewer an improved construction and arrangement of coifee cartridge and hot water duct whereby to facilitate the operation of preparing the beverage. Specifically, we contemplate directing the heated liquid from a tank or water source through a duct and downwardly into the cartridge, causing the liquid to penetrate the charge over a relatively small area, thence spreading out and working its way upwardly again from the lower portion of the charge to the top thereof from whence the infusion is withdrawn at the point of delivery. In this way, a very thorough impregnation of the coffee by the liquid is assured, and the cartridge need not be equipped with a check valve or like device to control the flow of liquid or to prevent dripping when the cartridge is removed for refilling.

A further object is to connect the coffee cartridge to the water duct in an improved manner which eliminates unwanted leakage and facilitates the insertion and removal of the cartridge.

These features are realized by using a novel flexible connection between the duct and the portion of the removable cartridge assembly where the water first enters the charge, and also mounting the cartridge on the supporting structure for the duct by a novel clamping means.

A still further object is to automatically control the amount of water which flows through each individual charge of the beverage-producing ingredient by causing the water flow to cease when the amount of delivered infusion exceeds a predetermined weight.

These and other objects of the invention will be more fully set forth in the following specification taken in conjunction with the accompanying drawings, wherein like reference numerals refer to like parts throughout:

l is a perspective view of a beverage brewer constructed in accordance with and embodying the principles of the invention;

2 is a vertical sectional view taken substantially on the line 2-4 in Fig. 1;

Fig. 3 is a perspective view of a cart 'idge em.- ployed in the beverage brewer;

Fig. 4 is a plan sectional view taken substantially on the line 44 in Fig. 2;

Fig. 5 is a sectional view of the beverage weighing mechanism, taken on the line 55 in Fig. 4;

Figs. 6 and '7 are sectional views taken on the lines 6-6 and 'l'i, respectively, in Fig. 5;

Fig. 8 is a detail sectional view of the cartridge and associated parts taken on the line 8--8 in 2;

Fig. 9 is a fragmentary sectional view of the filter employed in conjunction with the cartridge illustrated in Fig. 8

Fig. 10 is a sectional view taken on the line Ill-l0 in Fig. 8;

Fig. 11 is a perspective view, looking from below, of a portion of the structure associated with the cartridge;

Fig. 12 is a wiring diagram of the beverage brewer;

Fig. 13 is a vertical sectional view similar to Fig. 5, but showing a modified form of the invention;

Fig. 14 is a horizontal section on the line l4! 4 in Fig. 13;

Fig. 15 is a front elevation of the structure shown in Fig. 13; and

Fi 16 is a modified wiring diagram.

Referring to Fig. l, the beverage brewer is provided with an attractive chassis 2d of stainless steel or other suitable metal having stepped lower and upper sections 22 and 24 respectively.

The beverage is prepared near the point of delivery thereof in a cartridge 26 attached to a housing or head 23 which projects upwardly from the upper section 24. The cartridge 26, as will be explained in greater detail hereinafter, contains a charge of beverage-producing ingredient such as ground coffee. Water under pressure from a suitable source thereof, such as the city water supply, is piped to the water tank of the brewer where it is heated to the correct temperature for brewing the beverage. The water then is directed through a duct, which extends through the housing 28, into the cartridge 26 where it slowly permeates the charge of ingredient therein. The finished brew emerges from a suitable outlet in the cartridge 25 and is delivered to a decanter 38 which is positioned on a weighing platform 32 in the lower section 22 of the brewer. The decanter 36, made of glass or other material as desired, may be provided with a hinged plastic cover 33 and a plastic handle 34, as shown in Fig. l, or it may be of the type shown in Fig. 2 having a handle but no cover.

The brewing operation is started by depressing a control handle 36 projecting from the front panel 38 of the lower section 22. A beverage weighing mechanism, which forms a part of the brewer, automatically shuts off the supply of water to the cartridge it when a predetermined amount of beverage has been delivered to the decanter at the same time automatically re storing the handle 3% to its normal up position.

To aid in maintaining a large quantity of fresh- 1y prepared beverage on hand, the brewer is provided with warming plates such as ii; in the lower section Ziand t2 and M in the upper section it. On-olf sv 'tches 2-6, 48 and 5b are provided on the front panel 33 for operating these warming plates. Thus, when the required amount of beverage has been delivered to a decanter, the decanter may be moved to a warming plate, as in the case of the decanter 52 shown on the warming plate @2 in Fig. 1, where the beverage is maintained at drinkin temperature by a suitable warming element until used. An additional heating area 5 3 is shown in the lower section 22, and a combined high and low heat element 55 is disposed in this area. The element 56 is controlled by an on-01f switch 53 and a highlow switch 69 on the front panel 38. The element 56 can be used for warming a quantity of beverage on low heat, and it can also be used on high heat to boil water for use in preparing tea, for example.

It should be noted that the lower section'22 or" the chassis is slanted'upwardly from the front panelii whereas the warming areas 13 and be are substantially horizontal. Tapered arcuate stop walls 62 and E i integral with the chassis Ell extend around the rearward portions of the warming areas it and 56, respectively, the front portions of these areas being substantially flush with the surface of the chassis. This arrangement facilitates proper registration of the decanter with the heating element while enabling the decanter to be conveniently withdrawn and replaced. In the upper section 24 the surface of the chassis is horizontal and substantially flush with the warming plates 52 and A back stop, in the form of a bar or rod 6%, is mounted on the chassis 29 at the rear of the upper section 25, to aid in registering decanters as 52 with the warming elements and also to prevent the decanters from being accidentally pushed off the rear edge of the chassis. The entire beverage brewer is mounted on side rails fit and it which may be provided with leveling devices (not shown) for properly orienting the weighing mechanism of the brewer with respect to horizontal.

The illustrated beverage brewer is adapted to be used in conjunction with a source of water under pressure, such as the city water supply. The water is taken in through a pipe it, Figs. 1 and 4, which is connected by a nipple E2 to a bracket or fitting l t, Fig. 4. The water is conducted by suitable tubing and coupling members past a filter lb needle valve 89 to a tube 82 which communicates with the inlet side of a valve 8%, Figs. 5 and 7, that is controlled by the beverage weighing mechanism. Assuming this valve to be open, the flow of water continues through a tube 26, Fig. i, to the inlet of a water heating tank 38, preferably of stainless steel, where the temperature of the water is raised to a predetermined level. From the tank 88 the heated water rises through a pipe or duct Fig. 2, which through the housing or head 28. The pipe iii! has a downwardly extending open delivery end, as shown in detail in Fig. 8. The

cartridge 26 is detachably mounted on the head 28 by suitable means, which will be described in detail subsequently, below the delivery end of the duct 9G. The charge 92 of beverage-producing ingredient, such as ground coffee, is placed in the cartridge 26 where it is tightly packed and held in place by a filter it which closes the mouth of the cartridge. A connector 96 attached to the open end of the pipe 9t by a coupling member 9% bears against the filter 9' 1 and directs the stream of heated water from the pipe 9i! into the charge 92.

The cartridge 25, in accordance with the principles of the invention, has an open mouth at one end, that is, the upper end thereof, and is closed at its other or lower end mi The Wall 1532 of the cartridge 26 preferably is formed as a surface of revolution that converges from the mouth of the cartridge to the closed end Hit. When the brewer is in operation, hot water from the duct 93 enters the cartridge through the center of the filter S51 and penetrates the charge 92 downwardly over a relatively small crosssectional area for a substantial depth, thence gradually spreading out and working its way upwardly through the charge 92. The reversal in flow of the water and the upward spreading action thereof are guided by a protuberance I34 projecting upwardly from the bottom ltd and by the upwardly divergent configuration of the wall M2. The ground coffee or other ingredient is forced up against the filter M by the pressure of the water. The rate at which the water permeates the charge 52 is determined by the setting of the needle valve 85, Fig. i. [in opening M36 is provided in the side panel E98 of the chassis 2! for enabling a screwdriver or other adjusting instrument to be inserted for adjusting the needle valve 86 to regulate the flow of water. The completed infusion emerges from the charge 52, Fig. 8, over a relatively large area and drains through a spout or lip Ht, Fig. 2, formed in the upper end of the cartridge 25, from whence it is delivered to the decanter 38. After passage of the water through the charge 92, the charge is found to have a substantially pear-shaped cavity therein, as indicated at H2, in Fig. 8.

The foregoing describes in a general way the course of the water through the apparatus and the production of the beverage at the point of delivery thereof remote from the source of heated water. The various portions of the apparatus now will be described with particular reference to the details illustrated in the drawings.

The water tank 88 is of cylindrical form and is suspended from the upper section 24 of the chassis by brackets such as H 1, Fig. 2, which are secured in any desired manner to the under side of the upper section 25. The legs of the brackets il l are extended as arcuate bands I I6 which partially encircle the tank 88. Other arcuate bands 358 are connected to the ends of the bands Hi3 by bolts H253 to clamp the tank 8% firmly in position. A cover i22, Fig. i, is mounted on one end of the tank 33. Suitable openings are provided in this cover for extending electrical connections to the water heating elements and thermostat which are immersed in the water contained by the tank 33. A high heat element 52 is provided for bringing the incoming water rapidly up to the desired temperature. An auxiliary or standby heater I25 supplies sufficient heat to the water to compensate for heat lost through the wall of the Water tank, thereby maintaining the water at the desired high temperature. The tank 88 may be covered with heat-insulating material such as asbestos to minimize heat losses. The heating element I24 is controlled by a thermostat I36 through the medium of a relay I 32.

The head 28 is secured to the chassis 26 and has a shape approximately like an inverted L. The head is hollow and e -closes the outlet pipe 90 from the water tank 88. The projecting front portion of the head is cut away to receive a translucent plastic front piece or window I34, Figs. 1 and 2, which rests upon and is secured to a horizontal shelf I 36 that is an integral part of the head 28. An electric lamp I38, Fig. 2, positioned on a bracket I46 behind a window I34, this lamp being lighted when the brewer is in operation. The head 26 and window I 34 are designed to present an attractive appearance, not necessarily being limited to the configuration as shown.

The cartridge 26, Figs. 3 and 8, as previously described, is open at its upper end and closed at its lower end. This cartridge is made of any suitable material such as stainless steel. The upper part of the cartridge 26 is outwardly offset to afford an annnular ledge I42 on which the filter 94 is adapted to seat. The filter 94 is of reinforced construction. so as to be relatively rigid. As illustrated, the filter 94 comprises a truss or spider I44 of frusto-conical shape, the apex thereof being adapted to be positioned adjacent the connecter 96 which is attached to the delivery end of the hot water pipe 65. The spider I44 supports a screen or strainer I45 of stainless steel wire gauze or the like, as shown in Fig. 9. The outer periphery of the spider I44 is fitted into a gasket I 48 that is adapted to seat on the ledge I42, Fig. 8. A circular screen I52 is carried by a ring I56 that is formed centrally of the spider M4 to provide a seat for the lower end of the connecter 66.

The cartridge 26 preferably is mounted on trunnions supported by the head 28. Thus, as shown in Fig. 8, two U-shaped brackets I54 are secured at diametrically opposite points to the outer circular face of the cartridge 26 at the upper end thereof. As shown in Fig. 3, the spout I III of the cartridge is positioned midway between the brackets I54. Rollers I56, Figs. 8 and 10, are rotatably mounted on screws I58 which extend through the legs of the brackets I54. Trunnion plates I60, notched as shown in Figs. and 11, are screwed to the sides of the flange I 62 depend.- ing from the shelf I36 to receive the rollers I56 when the cartridge 26 is assembled on the head 28. Grips I64, Figs. 3 and 8, are attached to the brackets I54 outwardly ther of whereby the car.- tridge 26 may be grasped by both hands and manipulated into operative position, thereby causing the rollers I55 to ride up on cam faces I65 and seat in locking recesses I66, Fig. 10, in the notched plates I50.

When the cartridge 26 is inserted in its position of use as just described, the connecter 96 is subjected to vertical endwise pressure by the filter 94 so as to be in water-tight sealing engagement therewith. We prefer to employ a resilient metallic connecter 96 of hollow, bellows-like construction, as illustrated in Figs. 2, 8 and 11, comprisin a series of dished, elastic, metal sections and having a sealing face which abuts the ring I56 of the filter 94. This bellows connector is effective to prevent escape of the water laterally therefrom except when the water pressure exceeds a predetermined safe limit. The reaction of the bellows against the filter 94 maintainsthe rollers I56 of the cartridge 26 firmly seated in their locking recesses I66, and further serves to maintain the cartridge level by exerting equal pressure at all points on the ring I 66 of the filter.

The platform 32, Figs. 2, 4 and 5, upon which the decanter 30 is supported to receive the freshly prepared beverage from the cartridge 26, is connected by a countersunk screw I 66 to a triangular plate I68, Fig. 6, which forms one arm of a lever I10 that is carried by pivots I12 mounted in the sidewalls I14 of a frame I16. The frame I16 is suspended from the under side of the lower section 22 of the chassis 26. Studs I aifixed to the upper side of the plate I68 support a discshaped metal shell I82, Fig. 5 that houses a heating element for keeping the beverage in the decanter 30 warm While it is on the platform 32. The heating element has a ceramic body I84 on which the platform 32 rests. Tightening the screw I 66 therefore secures the platform 32 to the plate I68. The plate I 68 extends rearwardly of the pivots I12, and a weight I86, Figs. 4, 5 and 6, is screwed to a flange I88 on the front end of the lever I16. Supplemental weights I96 may be attached to the weight I36 if desired. A stop screw or stud I62, Figs. 5 and 6, is threaded into atapped opening in a horizontally extending lug I94 of the frame I16 and is received in a bifurcation at the rear edge of the triangular plate I66. The weigl" I86 on the lever I10 tends to urge the front end of the lever downwardly and the rear end of the lever I10 upwardly until the plate I68 is arrested by the head of the screw I62.

The valve 34, Figs. 5 and 7, which controls the flow of unheated water into the water heating tank 38 has a plunger I66 which normally is urged by a spring I98 into its closed position. The valve 84 is mounted on the frame I16, and the stem of the plunger I96 extends through a fitting 266. The plunger stem is in axial alignment with an adjustin screw 262 which is threaded into the end of an axially shiftab'le rod 264 that extends through the upstanding legs of a U-shaped bracket 266 carried by the frame I16. A yoke 268 is pivotally connected by a pin 2I6 to the rod 264 and carries a bar 2i 2 that extends forwardly through a vertically extending slot 2M in the front panel 33 of the chassis 26. The control handle 36, mentioned hereinabove in connection with Fig. 1. is attached to the exposed end of the bar 2I2 as shown in Figs. 2, 5 and 6. Another yoke 216, Figs. 5 and 7, carried by the bar H2 is connected by a toggle link 2I8 to a stationary block 220 mounted on a bracket 222 secured to the frame I16. When the control handle 36 is depressed from the position in which it is shown in dotted outline (Fig. 5) to that which is shown in full lines, the bar 2I2 is moved rearwardly through concurrent rotation of the toggle link 2I8 from the dotted outline position thereof to the over-center fulL-line position shown in the same figure. This produces a corresponding shift of the rod 264, thereby opening the valve 84 and compressing the valve spring I98. An adjustable stop screw 224 on the bracket 222 limits the downward movement of the bar 2I2 and handle 36. The reaction of the spring I93 on the rod 264 keeps the toggle 2I6 and bar 2I2 yieldably retained in their lower or ful-line positions, as shown in Fig. 5.

The balance mechanism, of which the platform 32 is a part, functions to release the bar 2 I2 and restore it to its upper or dotted-line position, Fig. 5, when a, predetermined quantity of beverage has been delivered to the decanter 30. To

this end, the plate let of the'lever I10 carries on its under side a roller 22% which is vertically aligned with an adjustable abutment afforded by a screw 228 which is threaded into a rearward extension 230 of the bar 2i2. When a predetermined weight of beverage has been delivered to the decanter 30, the platform 32 commences to tilt downwardly. There is a small clearance between the roller 226 and the head of screw 228 when the platform 32 is in its upper or full-line position. As the platform 32 descends, the moment-arm of the effective downward force acting upon the rear arm its of lever i'iil lengthens, while the moment-arm of the weight acting upon the front arm of this lever is shortened. To augment the force of gravity acting upon the lever arm 168, we provided a pair of permanent magnets 232 and 234 respectively mounted on a bracket 2%, carried by the arm E53, and'on 2. lug 238 of the frame H5. The force of attraction between the magnets increases as the distance separating them decreases. The combined efiect of the foregoing is to build up a relatively large momentum for a small displacement of the lever I10, so that the roller 222 strikes the screw 228 with considerable impact, thereby overcoming the resistance of the toggle 2|8 practically instantaneously, whereupon the toggle moves into its broken-line position, Fig. 5, and the bar 212 and handle 36 are restored into their upper positions. Such restoration of the bar 212 relieves the thrust on the plunger I96 of the valve 84, enabling the valve spring M8 to close the valve 86 and shut off the supply of water to the tank 88. It will be understood that the unheated water which is admitted to the tank 88 under pressure, while the valve 84 is open, forces the heated water from the top of this tank through the outlet duct 90, and that when the flow of unheated water is interrupted, the flow of heated water likewise ceases.

Electrical connections of the beverage brewer are illustrated in the wiring diagram, Fig. 12. The apparatus is adapted to operate from a voltage source which provides both high voltage, such as 230 volts, and voltage of ordinary magnitude such as 115 volts. The electrical outlet box 240 has a terminal 242 connected with the neutral or ground terminal of the voltage source, and terminals 244 and 266 which are separated electrically from each other by the high voltage, say 230 volts, and from the center terminal 242 by the normal voltage, say 115 volts. The high heat element H24 in the water tank 88 is connected in series with the normally open contact 228 of the relay I32 across the high voltage terminals 244 and 226. The standby element l26 is connected at one end thereof to the terminal 246, the other end of the element 126 being connected through a wire 252 to the ground terminal 2 32. Thus the high heat element I24 normally is in a deenergized condition while the standby element 26 is continually energized by the voltage source. The element I26 maintains the water slightly warm so that it may readily be heated to brewing temperature by the element 124 when the brewer is in operation.

The reciprocatory rod 2%, Figs. and '7, which is actuated by the bar 252 carries a switch-operating member 25d of plastic or other suitable insulating material. When the control handle 36 is depressed to initiate a brewing operation, the member 25s simultaneously closes the amtcues 25s, ass and res (Fig. 12) that are mounted on an insulating plate 26l, Fig. 7, se-

cured to the front wall of the bracket 206. C10- sure of switch 256 connects one end of the coil of relay :32 to the terminal 246 of the outlet box 222. The other end of the relay coil is connected through the thermostat 836 to the terminal 242.

At the start of the brewing operation the contacts of thermostat see are closed so that closure of the switch 256 causes the relay contact 248 to close circuit through the high heat element ms. The element 524 functions to bring the water rapidly to brewing temperature or slightly above this temperature. When this condition is reached, the thermostat ltil opens its contacts until such time as the temperature of the water in the vicinity of the thermostat drops below a predetermined temperature. This affords a close control over the temperature of the heated Water supplied through the outlet duct 96 of the tank 82. A condenser as? is shunted across the contacts of the thermostat 38 to reduce arcing. Chattering of the thermostat contacts also is prevented by this means.

Closure of switch 253 when the control handle 3% is depressed extends circuit from the terminal 2&6 to the spring blade 252 of a switch 264, Figs. 4, 5, 6 and 12, that is anchored at one end on an insulating plate 265 attached to the lug I94 on the frame F55. The contact strip 262 bears against a contact screw 268 on a member 210 of plastic or other insulating material that is carried by the bracket 236 on the lever arm I68. The contact screw 228, as shown in Fig. 12, is electrically connected to one end of the heating element 2% beneath the weighing platform 32. The other end of the element 2'52 is electrically connected to a contact screw are, Figs. 6 and 12, on the member 2'52. The contact screws 276 and 268 .are continually engaged with the spring contact strips 271"?) and 2 2 respectively, the strip 218 being anchored at one of its ends to the stationary insulating plate The strip 218 is electrically connected to the terminal 242 of the outlet box 222. Hence the depression of the control handle 36 and consequent closure of switch 258 promptly closes the circuit through the warming element on the platform 32 for maintaining the beverage in the decanter 30 at drinking temperature.

Actuation of the handle as likewise closes the switch 262 to extend the circuit from terminal 2% through the pilot light !32, Figs. 2 and 12, and back to the terminal 262. The translucent window 53 thereupon is illuminated to indicate that the brewing operation is in process.

When the predetermined quantity of beverage has been delivered to the decanter 39 on the weighing platform 32, the lever arm i553 descends whereupon the contact strips 262 and 218 are brought into engagement with stationary contacts 28d and 282, Figs. 5 and 6, on the insulating plate 2%. The contact screws 268 and 216 ride on the strips 252 and 228 to maintain electrical connection therewith. The contact 282 has no electrical connection to the circuit, but contact 235! is in permanent electrical connection with the terminal 226. Therefore, opening of the switch 228 when the control handle 32 is released and restored to its upper position does not disconnect the warming element 2%, which remains energized through the contacts 285], 262 and 268 until the decanter is removed from the platform. Restoration of the weighing platform to its normal upper position breaks the circuit to the ele- 9 ment 274 until such time as the control handle 35 again is depressed.

The warming elements 284, 286 and 288, Fig. 12, respectively disposed beneath the warming plates 48, 42 and M, Fig. l, are controlled respectively by the on-off switches 4t, 48 and The high-low switch 5! for the heating element 56 has two spaced stationary contacts 28% and 2%. When the movable switch member is engaged with the contact 2E2 the low heat resistor 29 2 of the heating element 56 is energized through a resistor 296, the circuit being completed through the high heat resistor 233 of element 56 and the on-ofi switch 58, assuming that this switch closed. The current which flows through the winding 2 33 under these circumstances is not sufficient to produce high heat. For high heat operation of the element 56, the movable member of a switch 60 is engaged with the contact 288 to extend circuit directly through the resistor 298 and switch 58.

The novel beverage brewer disclosed herein affords numerous advantageous features as will be apparent to those skilled in the art. A perfect brew is assured because of the automatic control over temperature and amount of water used and the brewing time of the beverage. A large quantity of beverage can be prepared in a relatively short time by the brewer. To expedite the brewing operation a number or cartridges, as 26, may be held ready for use on a suitable cartridge rack (not shown) so that no time will be lost in recharging a cartridge between batches. The brewer is eficient in its operation and presents a pleasing appearance. The operator is not exposed to the hazard of scalding which i a detriment in the case of many commercial brewers. Moreover, the operator need not be skilled in the preparation of coffee inasmuch as the brewer automatically controls the operation of preparing the beverage throughout. The combination of the balance and toggle mechanism for weighing the coffee and controlling the flow of water provides a positively acting control.

Particular attention is directed to the special design of the cartridge 26 which, in conjunction with the other features of the invention, insures that the coffee infusion or other beverage prepared therein will be of the best quality obtainable from the beverage-producing ingredient utilized and of uniform strength. The bellows type of connector 96 materially expedites the insertion and removal of the cartridge. The expansive action of the bellows 96 stabilizes the cartridge as it is suspended from its trunnions. At the same time a certain amount of flexing movement of the connector is permitted whereby, for example, accidental joggling of the cartridge while the brewing operation is in process does not destroy the water-tight seal between the connecter and the filter member 94. At the conclusion of the brewing operation the operator may tip the cartridge slightly forward to drain off any excess hot liquid before removing the cartridge, thus further reducing any danger of scalding. All parts which contact the beverage are readily removable for cleaning. The shape of the cartridge renders it particularly convenient to keep clean. The connecter 95 can be removed by unscrewing for such occasional cleaning of this part as may be required.

It should be understood that a multiple brewer having several hot water ducts and associated cartridges for simultaneously preparing a plurality of batches of beverage is contemplated herein. Furthermore, the invention is not limited to a portable cartridge, but may be adapted to utilize a cartridge which is not removable from the brewer.

While the brewer herein disclosed utilizes an electric water heater, any other suitable water heating and temperature controlling means may be employed. Specifically, we contemplate adapting the brewer for use a thermostatically controlled gas water heater in certain types of installations. It will be noted that the" hot water duct l ading from the water tank is open throughout its length; hence there is always an escape path for steam and water vapor, and the risk of explosion is averted.

Because of the fact that the contact springs 2'62 and 2'68, Figs. 5 and 6, offer mechanical resistance to the descent of the lever arm H58, it may be preferred to locate the switches in which these contact springs are included in positions closer to the pivot H2 of the lever l'iii, thereby to decrease the efiective moment-arm of these contact springs. In Figs. 13, 14.- and there is illustrated a modified arrangement in which all of the switches that are responsive to movement of the weighing platform and the valve operating mechanism are mounted on the insulating plate Zfila secured to the front wall of the bracket 286a. Thus, the switches 253a and 22-341 (corresponding to the like-numbered switches in the previously described embodiment) are mounted on the front face of the insulator 255d, while the switch 255a is disposed rearwardly of the insulator 2cm. In this modification of the invention the switch 256a performs the functions of the switches 25% and 2% described above, as is apparent from the wiring diagram, Fig. 16. The switch consisting of parts 216 and 218 is eliminated, and an equivalent electrical connection is made directly to the heating element 2140. in the housing ifi'la, Fig. 13, by a flexible lead (not shown). Another flexible lead connects the element Zita to a terminal of the switch 264a, which replaces the switch 264.

When the control knob a is depressed, the bar 2 |2a is held by the toggle 2 i812, and the valveactuating rod 264a is shifted to open the valve a. An insulating collar 3%, threaded on the rod 26 3a. and held securely in place by a locking nut 3112, is effective to actuate the switches 256a and 25850 to their closed positions, indicated in full lines in Fig. 14. Closure of switch 258a, establishes an energizing circuit for the heating element 214a, Fig. 16. Closure of switch 256a closes circuit to the pilot light l38a and conditions the relay 132a for operation under control of the tank thermostat IBM. The relay l32a controls the energization of the water heating element corresponding to the element I24, Figs. 4 and 12.

A bracket 364, Figs. 13 and 14, depending from the lever arm illia has therein a tapped opening through which a screw or stud 3536 of insulating material is threaded to bear against the movable contact member of the switch 26 8a. The

crew 396 is secured in its adjusted position by a lock nut 3538. When the lever arm l'ifla descends in response to delivery of a predetermined weight of beverage to the receptacle resting on the platform 32a, the stud 3% moves to the left, as viewed in Fig. 14, to close the switch 255%, thereby establishing a second energizing circuit for the heating element 21 5a, Fig. 16. The heater 23 2a thus is maintained in operation for keeping the contents of the receptacle warm so long as the 11 receptacle is allowed to remain on the platform 32a.

The lever arm l'lila carries a stud 228a which cooperates with a roller 226a on the bar or lever 2l2a.- When the lever arm l'lila descends as just described, the roller 226a is engaged by the stud 228a to rock the lever 2|2a about its pivot 210a, and release the toggle 258a. The rod 294a then is moved to the left, Fig. 14, by the spring of ,valve 8i-a to open the switches 256a and 258a.

The opening of switch 258a is without effect so long as switch 26 1a remains closed. Opening of switch 256a interrupts the circuits to the pilot light Esta and the control relay 132a.

The lever l'liia, as in the case of the lever H0, is so arranged that the effective moment-arm of the weight [85a is decreased and the momentarm of the weight acting upon platform 32a is increased as the lever l'l'lla is rocked clockwise, as viewed in Fig. 13. To augment this accelerative effect upon the lever lllia there is provided a fixed permanent magnet 234a, supported on the bracket 238a, which tends to attract the magnetizable arm Etta, of lever l'lfla, the force of attraction becoming progressively stronger as the arm i680, approaches the magnet 234a. Thus, the platform 32a and lever arm |68a are snapped downward as soon as the weight on the platform 32a overbalances the weight l86a.

It is obvious that various changes may be made in the specific embodiments set forth for purposes of illustration without departing from the principles of the invention. The invention is accordingly not to be limited to the precise details disclosed herein but includes all modifications thereof within the spirit and scope of the appended claims.

We claim:

1. In a beverage brewer having a water heating tank in communication with a source of water under pressure, the combination comprising a valve controlling the flow of water through said tank, a plunger for said valve, a spring normally urging said plunger to valve-closing position, an open-ended duct leading from said tank, a cartridge adapted to contain a charge of beverageproducing ingredient, means supporting said cartridge to receive heated water from said duct, said cartridge having an outlet for beverage produced by infusion therein, a movable platform for supporting a receptacle in position to receive beverage delivered through said outlet, a balance lever carrying said platform on one arm thereof, a weight on the other arm of said lever, a pivoted bar operatively connected to said valve plunger for actuating said plunger to valve-openlng position, and a toggle mechanism connected to the pivoted bar and operable to hold said valve in open position and arranged to be tripped by said lever when a predetermined weight of beverage is present in said receptacle.

2. The combination set forth in claim 1 wherein said toggle mechanism is manually settable to a valve-opening position and effective when tripped by said lever to release said valve plunger to close said valve.

3. In a beverage brewer having a water heating tank in communication with a source of water under pressure, the combination comprising a valve controlling the flow of water through said tank, an open-ended duct leading from saidtank, a cartridge adapted to contain a charge of beverage-producing ingredient, means supporting said cartridge to receive heated water from said duct, said cartridge having an outlet for beverage produced by infusion therein, a movable platform for supporting a receptacle in position to receive beverage delivered through said outlet, a weight controlled lever connected with said platform, a plunger for said valve, a valve spring normally urging said plunger to valve-closing position, a pivoted bar operatively connected to said valve plunger and manually operable for actuating said plunger to valve-opening position, a toggle yieldingly maintaining said bar in the valve-opening position thereof, and means operable by said weight controlled lever in response to a predetermined weight of beverage in said receptacle for toggling said bar into position where said valve plunger is released.

4. In a coffee brewing apparatus adapted to be supplied with heated water under pressure from a suitable source thereof and including a coffee cartridge and retaining means therefor, the combination comprising means for directing liquid from said source into the cartridge, a valve controlling the flow of liquid to the cartridge, a balance lever, a movable platform carried by a first arm of said lever for supporting a receptacle in position to receive liquid from said cartridge, a weight carried on a second arm of said lever tending to urge said first arm and said platform upwardly, a stop limiting upward movement of said first lever arm; said lever, said platform and said weight being so constituted and arranged that over-balancing of said lever by a predetermined weight of liquid in the receptacle is efiective to lengthen the moment-arm of the gravitational force acting on said first arm relative to the moment-arm of the gravitational force acting on said second arm; a stationary member, a pair of magnetizable members resvectively carried by said lever and said stationary member arranged to approach each other as said first lever arm descends, at least one of said magnetizable members being a permanent magnet, valve-operating mechanism including a plunger for said valve, a valve spring for urging said plunger to valveclosing position, a pivoted bar operatively connected to said plunger and manually operable for actuating said plunger to valve-opening position, and impositive latching means connected with said bar to yieldingly maintain said valve open and releasable to effect closure of said valve, and members respectively disposed on said lever and said bar and adapted to cooperate for releasing said mechanism when said first lever arm has moved downwardly a predetermined amount from the upper limiting position thereof.

5. A beverage brewer for use in association with a source of water under pressure, a tank communicating with said source, a water heater for heating water within the tank, an open ended duct leading from said tank, a valve to control the flow of water from said source through said tank and duct, a slidably mounted plunger connected with the valve and movable longitudinally to open and close the same, a cartridge adapted to contain a charge of beverage producing ingredient and arranged to receive heated water from said duct, a shiftable switch operating member connected to said plunger, a pivoted manual control member connected to the shiftable switch operating member and manually operable to move the plunger to valve-opening position, a switch controlling said water heater, said switch when closed conditioning the heater for operation and movable to closed positicn by the switch operating member when the same is moved to valve-opening position, a positive latching means to retain said member in switch closing position, and weight controlled means adapted to support a decanter in position to receive liquid overflowing from said cartridge for actuating the manual control member in response to delivery of a predetermined weight of beverage by the brewer to release the valve and actuate the switch operating member and open the switch.

6. A beverage brewer for use in association with a source of water under pressure, a tank communicating with said source, a water heater for heating water within the tank, an open ended duct leading from said tank, a valve to control the flow of water from said source through said tank and duct, a slidably mounted plunger connected with the valve and movable longitudinally to open and close the same, a cartridge adapted to contain a charge of beverage producing ingredient and arranged to receive heated water from said duct, a reciprocatory rod connected to the valve p unger, a switch operating member carried by the reciprocatory rod, a switch controlling said water heater, said switch when closed conditioning the heater for operation and movable by said switch operating member to closed position when the plunger is moved to valve-opening position, a pivoted control member connected with the plunger and manually operable to more the plunger to valve-opening position and to close the switch, latching means connected with the control member for positively holding the switch closed and the valve open, and weight controlled means adapted to support a decanter in position to receive liquid overflowing from said cartridge for actuating the manual control member in response to delivery of a predetermined Weight of beverage by the brewer to release the valve and actuate the switch operating member and open the switch.

7. A beverage brewer for use in association with a source of water under pressure, a tank communicating with said source, a water heater for heating water within the tank, an open ended duct leading from said tank, a valve to control the flow of water from said source through said tank and duct, a slid-ably mounted plunger connected with the valve and movable longitudinally to open and close the same, a cartridge adapted to contain a charge of beverage producing ingredient and arranged to receive heated water from said duct, weighing mechanism including a weight controlled lever having an arm adapted to support a receptacle for receiving prepared beverage from said cartridge, an electric heating element mounted on the receptacle supporting arm of said, lever, a first switch settable to close an energizing circuit for said heating element, a switch operating member connected with the plunger, a pivoted control member connected to the plunger and operable to move the plunger to valve-opening position and actuate the switch operating member to close said switch and energize said electric heating element, a positive latching means connected with the control member for holding the valve in open position and the switch closed, said control member being operative in response to delivery of a predetermined amount of beverage to the beverage receptacle to release the valve and open the switch, a second switch operable by the weighing mechanism and effective when closed to establish an energizing circuit for said heating element upon the opening of the first switch, and electrical contact means actuated by said weighing mechanism to maintain continuity of the heating element energizing circuit controlled by said first switch until closure of said second switch.

8. A beverage brewer for use in association with a source of water under pressure, a tank communicating with said source, a water heater for heating water within the tank, an open ended duct leading from said tank, a valve to controlthe flow of water from said source through said tank and duct, a slidably mounted plunger connected with the valve and movable longitudinally to open and close the same, a cartridge adapted to contain a charge of beverage producing ingredient and arranged to receive heated water from said duct, a weighing mechanism including a weight controlled lever having an arm provided with a platform adapted to support a receptacle for receiving prepared beverage from said cartridge, an electric heating element carried by the weighing mechanism for the beverage in said receptacle, a switch effective when closed to establish an energizing circuit for said heating element, shiftable means provided with a circuit-closing member and movable in one direction to close the switch and open a valve for supplying water to the beverage brewer, a pivoted control member connected to the shiftable means and manually operable to move the same to valve-opening and switch-closing position, and positive latching means connected to the control member to retain said member in its valve-opening and switch-closing position, said Weight controlled lever being responsive to delivery of a predetermined weight of beverage to the receptacle to actuate the control member to release the said shiftable means to permit movement thereof to valve-closing and switch-opening position.

9. In combination with an apparatus as set forth in claim 8, a second switch eifective when closed to establish an additional energizing circuit for said heating element, and switch actuating means carried by said weight controlled lever to effect closure of said second switch when the said controlled lever is actuated to efiect opening of said first mentioned switch.

19. In combination with an apparatus as set forth in claim 8, a second switch including a movable contact element and effective when closed to establish an additional energizing cir-,

cuit for said heating element, and a contact mounted on the weight controlled lever and continuously engaged with said movable contact element, whereby to bring said contact element into switch-closing position when said weight controlled lever is actuated to effect opening of the first mentioned switch, said contact and said contact element being in series with said heating element at all times.

11. In an automatic beverage brewer, a water heating tank in communication with a source of water under pressure, a switch controlling said water heater, said switch when closed conditioning the heater for operation, a valve controlling the fiow of water through said tank, an open-ended duct leading from said tank, a cartridge adapted to contain a charge of beverageproducing ingredient, means supporting said cartridge to receive heated water from said duct, said cartridge having an outlet for beverage produced by infusion therein, a movable platform for supporting a receptacle in position to receive beverage delivered through said outlet, a weight controlled lever connected with said platform, a plunger for said valve, a valve spring normally urging said plunger to valve-closing position, a reciprocatory rod connected to said plunger and provided with a switch operating member arranged to close said switch when the plunger is moved to valve-opening position, a pivoted bar operatively connected to said plunger and manually operable for actuating said plunger to valve-opening position, a toggle yieldingly maintaining said bar in the valve-opening position thereof and the switch operating member in switch-closing position, and means operable by said weight controlled lever in response to a predetermined weight of beverage in said receptacle for toggling said bar into position where the valve plunger is released and the switch is opened.

12. A beverage brewer for use in association with a source of water under pressure, comprising a tank communicating with said source, an open ended duct leading from said tank, a valve to control the flow of water from the source through said tank and duct, a slidably mounted plunger connected with the valve and movable longitudinally to open and close the valve, a cartridge adapted to contain a charge of beverage producing ingredient, means supporting said cartridge in position to receive heated water from said duct, a movable platform adapted to support a decanter in position to receive liquid overflowing from said cartridge, a weighing mechanism including a lever operable by said platform in response to a predetermined weight 16 of beverage in the decanter supported thereby, and means controlled by said lever for actuating said plunger and said valve to close said valve when said predetermined weight of beverage is delivered to the decanter.

, H. W. PETERS.

CHARLES N. CROSSLEY. RAYMOND J. GAGAN.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date Re. 22,022 Peters Feb. 10, 1942 Re. 22,879 Peters et a1. May 13, 1947 19,780 Ingrahain Mar. 30, 1858 521,591 Lynn June 19, 1894 834,430 Wightrnan et a1. Oct. 30, 1906 1,552,947 Petersen Sept. 8, 1925 1,831,013 Kouyoumjian Nov. 10, 193 1,869,720 Strand et a1. Aug. 2, 1932 1,832,247 Levings Oct. 11, 1932 2,013,172 Petrone Sept. 3, 193 2,097,681 Wolcott Nov. 2, 1937 2,268,633 Aske Jan. 6, 194 2,445,591 Sullivan July 20, 1948 2,458,640 Reichold Jan. 11, 1949 FOREIGN PATENTS Number Country Date 558 Great Britain 1906 649,553 France Sept. 3, 1928 

